m hh fm f forwd - fiber-line® a4 /fl.datasheet... · 2017-02-15 · m hh fm f forwd key features...
TRANSCRIPT
FIBER OPTICAL CABLES
MOVING HIGH PERFORMANCE FIBERS FORWARD
Key Features• Good tensile strength & modulus • Excellentthermalproperties• Good chemical resistance• Goodflameresistance• Goodelectricalinsulation
Disadvantages• Lowstrengthtoweightratio• Brittlefilaments• Poor abrasion resistance
FIBER-LINE® PROCESSFOR FIBERGLASS • Coating• Pultrusion• Extrusion• Precision Winding
FIBER-LINE® FIBERGLASS PRODUCTS• Strength Members• Industrial Fabric Yarn• FRP Pultruded Rod• Strength Members• Industrial Fabric Yarn
ManufacturerVarious Suppliers.
HistoryThemassproductionofglassfibersfirstbeganinthe1930’s.Fiberglassisproducedintoseveralformsandutilizedinavastarrayofcompositeandindustrialapplications.Itisoftenusedinthermosetandthermoplastic applicationswherethefiberisusedasreinforcement.
CompositionLargefurnacesareusedtomeltsilicasand,limestone,andvariousother mineralstoliquidform.Theliquidisthenextrudedthroughbushingsandarecoated(sized)tohelpbundlethefilamentsandpreparethefibersforcompositeresininterface.E-GlasstypicallyisutilizedforitshighmoduluspropertiesasS-Glasshasahigherbreakingtenacity. Common Yields & SizesVarioussizes&yieldsavailable.
TypesE-Glass,S-Glass.
WHY FIBERGLASS?
FIBERGLASS FIBERS PROCESSES PRODUCTS
MOVING HIGH PERFORMANCE FIBERS FORWARD
This data is provided for informational purposes only, and does not constitute a specification. FIBER-LINE® makes no warranty, express or implied, that the product conforms to these values. Contact your FIBER-LINE® representative for exact product details which conform to your specific requirements.
Abrasion
Resistance
Yarn on Yarn
Abrasion
Ultraviolet (UV)
Resistance
Flame
Resistance
Chemical
Resistance
(Acid)
Chemical
Resistance
(Alkali)
Chemical
Resistance
(Organic Solvent)
X X O P P P P
Property UOM Value
Breaking Tenacity g/d 6.7–9.4
Specific Gravity Ratio 2.48
Elongation @ Break % 5.5
Tensile Modulus g/d 140–170
Moisture Regain* % <0.03
Creep** % 5.0–15.0
Shrinkage*** % 0.0
Melt Point °C 1056
Decomposition Temp. °C TBD
Property UOM Value
Breaking Tenacity g/d 6.0–7.3
Specific Gravity Ratio 2.58
Elongation @ Break % 3.5
Tensile Modulus g/d 200–275
Moisture Regain* % <0.03
Creep** % 10.0–20.0
Shrinkage*** % 0.0
Melt Point °C 846
Decomposition Temp. °C TBD
FIBERGLASS BARE FIBER PERFORMANCE
FIBERGLASS DATA
E-Glass S-Glass
* Equilibrium moisture regain @ 55% RH ** Creep @ 40%-58% ultimate tensile strength *** Shrinkage in dry air @ 177 C for 30 minutes
MOVING HIGH PERFORMANCE FIBERS FORWARD
ABOUT FIBER-LINE®
For over 25 years, FIBER-LINE® has provided science- driven expertise that improves the performance and the end-use processing of high performance fibers. Our products enable the search for new energy reserves and extend the life of fiber optic telecommunication cables. They also add important characteristics, such as SWELLCOAT® water-blocking, water repellence, adhe-sion, color, and wear and UV-resistance to these and many other applications. We believe that our ongoing commitment to protect the environment, to remain at the forefront of fiber and coating technology, and to ‘treat others as we want to be treated’ will continue to drive the success of our customers, shareholders, and employees.
LOCATIONS
Headquarters, R&D, ManufacturingFIBER-LINE®LLC3050CampusDriveHatfield,[email protected]
Manufacturing OperationsFIBER-LINE®LLC280PerformanceDriveSEHickory,[email protected]
EMEA & Asia Pacific OperationsFIBER-LINE®INTERNATIONALB.V.Uranusweg38938AJLeeuwardenTheNetherlands+31(0)[email protected]
NOTICE: The information and data contained herein do not constitute sales specifications. The product properties may be changed without notice. No liability, warranty or guarantee of product performance is created by this document. It is the Buyer’s responsibility to determine if this product is appropriate for the Buyer’s use and to ensure that the Buyer’s workplace and disposal practices are in compliance with applicable laws and regulations. No freedom from any patents or other industrial or intellectual property rights is granted or to be inferred.